// SPDX-FileCopyrightText: Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
// SPDX-FileCopyrightText: Copyright 2003 Sandia Corporation
// SPDX-License-Identifier: LicenseRef-BSD-3-Clause-Sandia-USGov

#include "vtkSortDataArray.h"

#include "vtkAbstractArray.h"
#include "vtkIdList.h"
#include "vtkMath.h"
#include "vtkObjectFactory.h"
#include "vtkSMPTools.h"
#include "vtkStdString.h"
#include "vtkStringArray.h"
#include "vtkVariant.h"
#include "vtkVariantArray.h"
#include <functional> //std::greater

//------------------------------------------------------------------------------

VTK_ABI_NAMESPACE_BEGIN
vtkStandardNewMacro(vtkSortDataArray);

//------------------------------------------------------------------------------
vtkSortDataArray::vtkSortDataArray() = default;

//------------------------------------------------------------------------------
vtkSortDataArray::~vtkSortDataArray() = default;

//------------------------------------------------------------------------------
void vtkSortDataArray::Sort(vtkIdList* keys, int dir)
{
  if (keys == nullptr)
  {
    return;
  }
  vtkIdType* data = keys->GetPointer(0);
  vtkIdType numKeys = keys->GetNumberOfIds();
  if (dir == 0)
  {
    vtkSMPTools::Sort(data, data + numKeys);
  }
  else
  {
    vtkSMPTools::Sort(data, data + numKeys, std::greater<vtkIdType>());
  }
}

//------------------------------------------------------------------------------
void vtkSortDataArray::Sort(vtkAbstractArray* keys, int dir)
{
  if (keys == nullptr)
  {
    return;
  }

  if (keys->GetNumberOfComponents() != 1)
  {
    vtkGenericWarningMacro("Can only sort keys that are 1-tuples.");
    return;
  }

  void* data = keys->GetVoidPointer(0);
  vtkIdType numKeys = keys->GetNumberOfTuples();

  if (dir == 0)
  {
    switch (keys->GetDataType())
    {
      vtkExtendedTemplateMacro(
        vtkSMPTools::Sort(static_cast<VTK_TT*>(data), static_cast<VTK_TT*>(data) + numKeys));
    }
  }
  else
  {
    switch (keys->GetDataType())
    {
      vtkExtendedTemplateMacro(vtkSMPTools::Sort(
        static_cast<VTK_TT*>(data), static_cast<VTK_TT*>(data) + numKeys, std::greater<VTK_TT>()));
    }
  }
}
VTK_ABI_NAMESPACE_END

//------------------------------------------------------------------------------
// Hide some stuff; mostly things plugged into templated functions
namespace
{

//------------------------------------------------------------------------------
// We sort the indices based on a key value in another array. Produces sort
// in ascending direction. Note that sort comparison operator is for single
// component arrays.
template <typename T>
struct KeyComp
{
  const T* Array;
  KeyComp(T* array)
    : Array(array)
  {
  }
  bool operator()(vtkIdType idx0, vtkIdType idx1) const { return (Array[idx0] < Array[idx1]); }
};

//------------------------------------------------------------------------------
// Special comparison functor using tuple component as a key. Note that this
// comparison function is for general arrays of n components.
template <typename T>
struct TupleComp
{
  const T* Array;
  int NumComp;
  int K;
  TupleComp(T* array, int n, int k)
    : Array(array)
    , NumComp(n)
    , K(k)
  {
  }
  bool operator()(vtkIdType idx0, vtkIdType idx1) const
  {
    return Array[idx0 * NumComp + K] < Array[idx1 * NumComp + K];
  }
};

//------------------------------------------------------------------------------
// Given a set of indices (after sorting), copy the data from a pre-sorted
// array to a final, post-sorted array, Implementation note: the direction of
// sort (dir) is treated here rather than in the std::sort() function to
// reduce object file .obj size; e.g., running std::sort with a different
// comporator function causes inline expansion to produce very large object
// files.
template <typename T>
void Shuffle1Tuples(vtkIdType* idx, vtkIdType sze, vtkAbstractArray* arrayIn, T* preSort, int dir)
{
  T* postSort = new T[sze];

  if (dir == 0) // ascending
  {
    for (vtkIdType i = 0; i < sze; ++i)
    {
      postSort[i] = preSort[idx[i]];
    }
  }
  else
  {
    vtkIdType end = sze - 1;
    for (vtkIdType i = 0; i < sze; ++i)
    {
      postSort[i] = preSort[idx[end - i]];
    }
  }

  arrayIn->SetVoidArray(postSort, sze, 0, vtkAbstractArray::VTK_DATA_ARRAY_DELETE);
}

//------------------------------------------------------------------------------
// Given a set of indices (after sorting), copy the data from a pre-sorted
// data array to a final, post-sorted array. Note that the data array is
// assumed to have arbitrary sized components.
template <typename T>
void ShuffleTuples(
  vtkIdType* idx, vtkIdType sze, int numComp, vtkAbstractArray* arrayIn, T* preSort, int dir)
{
  T* postSort = new T[sze * numComp];

  int k;
  vtkIdType i;
  if (dir == 0) // ascending
  {
    for (i = 0; i < sze; ++i)
    {
      for (k = 0; k < numComp; ++k)
      {
        postSort[i * numComp + k] = preSort[idx[i] * numComp + k];
      }
    }
  }
  else
  {
    vtkIdType end = sze - 1;
    for (i = 0; i < sze; ++i)
    {
      for (k = 0; k < numComp; ++k)
      {
        postSort[i * numComp + k] = preSort[idx[end - i] * numComp + k];
      }
    }
  }

  arrayIn->SetVoidArray(postSort, sze * numComp, 0, vtkAbstractArray::VTK_DATA_ARRAY_DELETE);
}

} // anonymous namespace

VTK_ABI_NAMESPACE_BEGIN
//------------------------------------------------------------------------------
// Allocate and initialize sort indices
vtkIdType* vtkSortDataArray::InitializeSortIndices(vtkIdType num)
{
  vtkIdType* idx = new vtkIdType[num];
  for (vtkIdType i = 0; i < num; ++i)
  {
    idx[i] = i;
  }
  return idx;
}

//------------------------------------------------------------------------------
// Efficient function for generating sort ordering specialized to single
// component arrays.
void vtkSortDataArray::GenerateSort1Indices(
  int dataType, void* dataIn, vtkIdType numKeys, vtkIdType* idx)
{
  if (dataType == VTK_VARIANT)
  {
    vtkSMPTools::Sort(idx, idx + numKeys, KeyComp<vtkVariant>(static_cast<vtkVariant*>(dataIn)));
  }
  else
  {
    switch (dataType)
    {
      vtkExtendedTemplateMacro(
        vtkSMPTools::Sort(idx, idx + numKeys, KeyComp<VTK_TT>(static_cast<VTK_TT*>(dataIn))));
    }
  }
}

//------------------------------------------------------------------------------
// Function for generating sort ordering for general arrays.
void vtkSortDataArray::GenerateSortIndices(
  int dataType, void* dataIn, vtkIdType numKeys, int numComp, int k, vtkIdType* idx)
{
  // Specialized and faster for single component arrays
  if (numComp == 1)
  {
    return vtkSortDataArray::GenerateSort1Indices(dataType, dataIn, numKeys, idx);
  }

  if (dataType == VTK_VARIANT)
  {
    vtkSMPTools::Sort(
      idx, idx + numKeys, TupleComp<vtkVariant>(static_cast<vtkVariant*>(dataIn), numComp, k));
  }
  else
  {
    switch (dataType)
    {
      vtkExtendedTemplateMacro(vtkSMPTools::Sort(
        idx, idx + numKeys, TupleComp<VTK_TT>(static_cast<VTK_TT*>(dataIn), numComp, k)));
    }
  }
}

//------------------------------------------------------------------------------
// Set up the actual templated shuffling operation. This method is for
// VTK arrays that are precsisely one component.
void vtkSortDataArray::Shuffle1Array(
  vtkIdType* idx, int dataType, vtkIdType numKeys, vtkAbstractArray* arr, void* dataIn, int dir)
{
  if (dataType == VTK_VARIANT)
  {
    Shuffle1Tuples(idx, numKeys, arr, static_cast<vtkVariant*>(dataIn), dir);
  }
  else
  {
    switch (arr->GetDataType())
    {
      vtkExtendedTemplateMacro(
        Shuffle1Tuples(idx, numKeys, arr, static_cast<VTK_TT*>(dataIn), dir));
    }
  }
}

//------------------------------------------------------------------------------
// Set up the actual templated shuffling operation
void vtkSortDataArray::ShuffleArray(vtkIdType* idx, int dataType, vtkIdType numKeys, int numComp,
  vtkAbstractArray* arr, void* dataIn, int dir)
{
  // Specialized for single component arrays
  if (numComp == 1)
  {
    return vtkSortDataArray::Shuffle1Array(idx, dataType, numKeys, arr, dataIn, dir);
  }

  if (dataType == VTK_VARIANT)
  {
    ShuffleTuples(idx, numKeys, numComp, arr, static_cast<vtkVariant*>(dataIn), dir);
  }
  else
  {
    switch (arr->GetDataType())
    {
      vtkExtendedTemplateMacro(
        ShuffleTuples(idx, numKeys, numComp, arr, static_cast<VTK_TT*>(dataIn), dir));
    }
  }
}

//------------------------------------------------------------------------------
// Given a set of indices (after sorting), copy the ids from a pre-sorted
// id array to a final, post-sorted array.
void vtkSortDataArray::ShuffleIdList(
  vtkIdType* idx, vtkIdType sze, vtkIdList* arrayIn, vtkIdType* preSort, int dir)
{
  vtkIdType* postSort = new vtkIdType[sze];

  if (dir == 0) // ascending
  {
    for (vtkIdType i = 0; i < sze; ++i)
    {
      postSort[i] = preSort[idx[i]];
    }
  }
  else
  {
    vtkIdType end = sze - 1;
    for (vtkIdType i = 0; i < sze; ++i)
    {
      postSort[i] = preSort[idx[end - i]];
    }
  }

  arrayIn->SetArray(postSort, sze);
}

//------------------------------------------------------------------------------
// Sort a position index based on the values in the abstract array. Once
// sorted, then shuffle the keys and values around into new arrays.
void vtkSortDataArray::Sort(vtkAbstractArray* keys, vtkAbstractArray* values, int dir)
{
  // Check input
  if (keys == nullptr || values == nullptr)
  {
    return;
  }
  if (keys->GetNumberOfComponents() != 1)
  {
    vtkGenericWarningMacro("Can only sort keys that are 1-tuples.");
    return;
  }
  vtkIdType numKeys = keys->GetNumberOfTuples();
  vtkIdType numValues = values->GetNumberOfTuples();
  if (numKeys != numValues)
  {
    vtkGenericWarningMacro("Could not sort arrays.  Key and value arrays have different sizes.");
    return;
  }

  // Sort the index array
  vtkIdType* idx = vtkSortDataArray::InitializeSortIndices(numKeys);

  // Generate the sorting index array
  void* dataIn = keys->GetVoidPointer(0);
  int numComp = 1;
  int dataType = keys->GetDataType();
  vtkSortDataArray::GenerateSortIndices(dataType, dataIn, numKeys, numComp, 0, idx);

  // Now shuffle data around based on sorted indices
  vtkSortDataArray::ShuffleArray(idx, dataType, numKeys, numComp, keys, dataIn, dir);

  dataIn = values->GetVoidPointer(0);
  numComp = values->GetNumberOfComponents();
  dataType = values->GetDataType();
  vtkSortDataArray::ShuffleArray(idx, dataType, numKeys, numComp, values, dataIn, dir);

  // Clean up
  delete[] idx;
}

//------------------------------------------------------------------------------
void vtkSortDataArray::Sort(vtkAbstractArray* keys, vtkIdList* values, int dir)
{
  // Check input
  if (keys == nullptr || values == nullptr)
  {
    return;
  }
  if (keys->GetNumberOfComponents() != 1)
  {
    vtkGenericWarningMacro("Can only sort keys that are 1-tuples.");
    return;
  }
  vtkIdType numKeys = keys->GetNumberOfTuples();
  vtkIdType numIds = values->GetNumberOfIds();
  if (numKeys != numIds)
  {
    vtkGenericWarningMacro("Could not sort arrays.  Key and id arrays have different sizes.");
    return;
  }

  // Sort the index array
  vtkIdType* idx = vtkSortDataArray::InitializeSortIndices(numKeys);

  // Generate the sorting index array
  void* dataIn = keys->GetVoidPointer(0);
  int numComp = 1;
  int dataType = keys->GetDataType();
  vtkSortDataArray::GenerateSortIndices(dataType, dataIn, numKeys, numComp, 0, idx);

  // Shuffle the keys
  vtkSortDataArray::ShuffleArray(idx, dataType, numKeys, numComp, keys, dataIn, dir);

  // Now shuffle the ids to match the sort
  vtkIdType* ids = values->GetPointer(0);
  ShuffleIdList(idx, numKeys, values, ids, dir);

  // Clean up
  delete[] idx;
}

//------------------------------------------------------------------------------
void vtkSortDataArray::SortArrayByComponent(vtkAbstractArray* arr, int k, int dir)
{
  // Check input
  if (arr == nullptr)
  {
    return;
  }
  vtkIdType numKeys = arr->GetNumberOfTuples();
  int nc = arr->GetNumberOfComponents();

  if (k < 0 || k >= nc)
  {
    vtkGenericWarningMacro(
      "Cannot sort by column " << k << " since the array only has columns 0 through " << (nc - 1));
    return;
  }

  // Perform the sort
  vtkIdType* idx = vtkSortDataArray::InitializeSortIndices(numKeys);

  void* dataIn = arr->GetVoidPointer(0);
  int dataType = arr->GetDataType();
  vtkSortDataArray::GenerateSortIndices(dataType, dataIn, numKeys, nc, k, idx);

  vtkSortDataArray::ShuffleArray(idx, dataType, numKeys, nc, arr, dataIn, dir);

  // Clean up
  delete[] idx;
}

//------------------------------------------------------------------------------
void vtkSortDataArray::PrintSelf(ostream& os, vtkIndent indent)
{
  this->Superclass::PrintSelf(os, indent);
}

// vtkSortDataArray methods -------------------------------------------------------
VTK_ABI_NAMESPACE_END
